CN220473949U - Water-cooling row with externally hung interface - Google Patents

Abstract

The utility model relates to a water-cooling row with external interfaces, which comprises a first water storage cavity, a second water storage cavity and a water-cooling pipeline, wherein the first water storage cavity and the second water storage cavity are arranged at two ends of the water-cooling row, a partition piece is arranged in the first water storage cavity, the first water storage cavity is partitioned into a third water storage cavity, a fourth water storage cavity and a fifth water storage cavity by the partition piece, a first interface and a second interface are arranged on the end face of the water-cooling row, the first interface is communicated with the fifth water storage cavity, the second interface is communicated with the fourth water storage cavity, and the first interface is communicated with the second interface through an external assembly. Through setting up the external subassembly, can realize the function diversification of water-cooling row, if outer pendant is the water pump, then realize the integration of water pump and water-cooling row, if set up the connecting pipe and then use as ordinary water-cooling row, can also set up the refrigeration piece or establish ties a water-cooling row again and further improve entire system's heat dispersion.

Description

Water-cooling row with externally hung interface

Technical Field

The utility model relates to the technical field of water cooling, in particular to a water cooling row with an externally hung interface.

Background

CPU is one of the main devices of the electronic computer, and is also a core accessory in the computer, and generates a great amount of heat when working, if the heat is not timely emitted, the CPU is halted due to light weight, and the CPU is possibly burnt out due to heavy weight. Therefore, when the heating element such as CPU works, it is usually selected to install a water cooling system to cool down.

The existing water cooling system generally comprises a water cooling row, a water pump and a water cooling head, which are connected through a water pipeline, and the circulating flow of the refrigerant is realized under the drive of the water pump. In the existing scheme, the water pump may be arranged on the water pipe, or on the water cooling head, or on the water cooling row, and different water cooling rows are required to be configured by adopting different schemes, so that the general purpose cannot be achieved, the stock pressure is increased undoubtedly, and the die sinking cost is also increased.

Disclosure of Invention

The utility model aims to solve the technical problems that: the water-cooling row with the plug-in interface is provided, the universality of the water-cooling row is improved, and different plug-in components can be configured to enrich the functions of the water-cooling row.

The utility model discloses a water-cooling row with external hanging interfaces, which comprises a first water storage cavity, a second water storage cavity and a water-cooling pipeline, wherein the first water storage cavity and the second water storage cavity are arranged at two ends of the water-cooling row, a partition piece is arranged in the first water storage cavity, the first water storage cavity is partitioned by the partition piece to form a third water storage cavity, a fourth water storage cavity and a fifth water storage cavity, a first interface and a second interface are arranged on the end face of the water-cooling row, the first interface is communicated with the fifth water storage cavity, the second interface is communicated with the fourth water storage cavity, and the first interface is communicated with the second interface through an external hanging assembly.

Further, the water cooling pipeline comprises a plurality of first water cooling pipelines and a plurality of second water cooling pipelines, one end of the third water storage cavity is communicated with one end of the second water storage cavity through the first water cooling pipelines, and the other end of the second water storage cavity is communicated with the fourth water storage cavity through the second water cooling pipelines.

Further, an installation block is fixedly arranged on one end face of the water cooling row, the first interface and the second interface are both arranged on the installation block, and the installation block is detachably connected with the plug-in assembly.

Further, sealing gaskets are arranged at one ends of the first interface and the second interface, which are close to the plug-in assembly.

Further, the plug-in component is one of a water pump, a refrigerating sheet and a connecting pipe.

Further, the plug-in component is a water pump, a sliding rail is arranged on the top surface of the mounting block, a sliding groove matched with the sliding rail is arranged on the bottom surface of the water pump, a water inlet and a water outlet are formed in the water pump, the first interface corresponds to the water inlet, and the second interface corresponds to the water outlet.

Further, one end of the sliding groove is provided with a limiting end part for limiting the sliding rail to slide relatively to the sliding groove, a fastening hole is formed through the end face of the mounting block and the bottom face of the water pump, the fastening hole is formed in one side, opposite to the limiting end part, of the fastening hole, and a screw is arranged through the fastening hole so that the water pump is fixed on the mounting block.

The beneficial effects of the utility model are as follows:

1. the partition pieces are arranged in the water cooling rows, the inside of the partition pieces is divided into cavities, the control of the flow direction of the refrigerant is realized, and the effective management of heat is realized;

2. through setting up the external subassembly, can realize the function diversification of water-cooling row, if outer pendant is the water pump, then realize the integration of water pump and water-cooling row, if set up the connecting pipe and then use as ordinary water-cooling row, can also set up the refrigeration piece or establish ties a water-cooling row again and further improve entire system's heat dispersion.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present utility model;

FIG. 2 is an exploded view of an embodiment of the present utility model;

FIG. 3 is a schematic diagram illustrating the assembly of a water pump and a mounting block according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram of a water pump according to an embodiment of the present utility model;

reference numerals: the device comprises a 1-cold head, a 2-water cooling row, a 3-first pipeline, a 4-second pipeline, a 5-water pump, a 6-water inlet, a 7-water outlet, an 8-cover piece, a 9-partition piece, a 10-second water storage cavity, a 11-third water storage cavity, a 12-fourth water storage cavity, a 13-fifth water storage cavity, a 14-first water cooling pipeline, a 15-second water cooling pipeline, a 16-mounting block, a 17-sliding rail, a 18-sliding groove, a 19-limiting end part, a 20-fastening hole, a 21-first interface, a 22-second interface and a 23-sealing gasket.

Detailed Description

The utility model will be further described with reference to the drawings and examples.

Example 1: as shown in fig. 1 to 4, a water cooling system includes:

the cold head 1 is used for attaching the heating element and exchanging heat with the heating element, and the low-temperature refrigerant is heated to be a high-temperature refrigerant after exchanging heat with the heating element through the cold head 1;

the water cooling row 2 is used for cooling the high-temperature refrigerant into a low-temperature refrigerant, and heat exchange is performed between the water cooling row 2 and the cold head 1 through refrigerant circulation;

the water conveying pipe is used for conveying refrigerants and is communicated with the cold head 1 and the water cooling row 2, and comprises a first pipeline 3 and a second pipeline 4;

the water cooling row 2 comprises a first water storage cavity and a second water storage cavity 10 which are arranged at two ends, and water cooling pipelines which are communicated with the first water storage cavity and the second water storage cavity 10, a partition piece 9 is arranged in the first water storage cavity, the first water storage cavity is partitioned by the partition piece 9 to form a third water storage cavity 11, a fourth water storage cavity 12 and a fifth water storage cavity 13, the water cooling pipelines comprise a plurality of first water cooling pipelines 14 and a plurality of second water cooling pipelines 15, one end of the third water storage cavity 11 is communicated with the cold head 1 through the first pipeline 3, the other end of the third water storage cavity 11 is communicated with one end of the second water storage cavity 10 through the first water cooling pipeline 14, and the other end of the second water storage cavity 10 is communicated with the fourth water storage cavity 12 through the first water cooling pipeline 15.

The end face of the water cooling row 2 is provided with a first interface 21 and a second interface 22, the first interface 21 is communicated with the fourth water storage cavity 12, the second interface 22 is communicated with the fifth water storage cavity 13, and the first interface 21 is communicated with the second interface 22 through an externally hung component.

In this embodiment, the plug-in component is a water pump 5, the water pump 5 is provided with a water inlet 6 and a water outlet 7, an installation block 16 is fixedly arranged on one end face of the water cooling row 2, the first interface 21 and the second interface 22 are both arranged on the installation block 16, a sliding rail 17 is arranged on the top face of the installation block, and a sliding groove 18 matched with the sliding rail 17 is arranged on the bottom face of the water pump 5. One end of the sliding groove 18 is provided with a limiting end 19 for limiting the sliding rail 17 and the sliding groove 18 to slide relatively, a fastening hole 20 is formed through the end face of the mounting block and the bottom face of the water pump 5, the fastening hole 20 is formed on one side, opposite to the limiting end 19, of the fastening hole 20, and a screw is arranged through the fastening hole 20 so that the water pump 5 is fixed on the mounting block. And a sealing gasket 23 is arranged at one end of the first interface 21 close to the water inlet 6 and one end of the second interface 22 close to the water outlet 7. When the water pump 5 is combined with the mounting block, the water inlet 6 corresponds to the first interface 21, the water outlet 7 corresponds to the second interface 22, and the sealing gasket 23 enables the first interface 21 to be in tight butt joint with the water inlet 6, and the second interface 22 to be in tight butt joint with the water outlet 7. The end of the water cooling row 2 is provided with a cover member 8, the cover member 8 covers the water pump 5, and the cover member 8 plays a role in protecting and decorating the water pump 5.

The assembly and working principle of this embodiment:

during installation, the sliding groove 18 on the bottom surface of the water pump 5 is aligned with the sliding rail 17 on the installation block, the sliding rail is relatively slid until the end part of the sliding rail 17 is propped against the limiting end part 19, at the moment, the installation block is coaxial with the fastening hole 20 on the water pump 5, and then the water pump 5 and the water cooling row 2 are assembled by locking and fixing the installation block and the fastening hole by using a screw; then, the cold head 1 and the heating element are attached, locked and fixed, and the connection of the cold head 1 and the heating element is completed; finally, according to the layout in the case, the position and angle of the water pipeline are adjusted, the water cooling row 2 is fixed on the inner wall of the case, and the whole assembly of the heat dissipation system is completed.

When the cooling device works, a low-temperature refrigerant flows from the second pipeline 4 to the cold head 1, the cold head 1 exchanges heat with the heating element, the low-temperature refrigerant is changed into a high-temperature refrigerant, the high-temperature refrigerant flows to the third water storage cavity 11 through the first pipeline 3, and then sequentially passes through the first water cooling pipeline 14, the second water storage cavity 10, the first water cooling pipeline 15 and the fourth water storage cavity 12, and at the moment, the high-temperature refrigerant is changed into the low-temperature refrigerant after being cooled by the water cooling exhaust 2; then, under the driving action of the water pump 5, the refrigerant flows from the fourth water storage cavity 12 to the fifth water storage cavity 13, and finally flows to the cold head 1 again through the second pipeline 4 to form a circulation, and the water pump 5 plays a role in driving the circulation of the refrigerant in the heat dissipation system.

The above description is merely of a preferred embodiment of the present utility model, the present utility model is not limited to the above embodiment, and minor structural modifications may be made in the implementation process, and the present utility model is intended to include modifications and variations if they do not depart from the basic principle and scope of the present utility model, and fall within the scope of the claims and the equivalents thereof.

Claims (7)

1. A water-cooled bar with external interface, characterized in that: the water-cooling pipeline is characterized by comprising a first water storage cavity, a second water storage cavity and a water-cooling pipeline, wherein the first water storage cavity and the second water storage cavity are arranged at two ends of the water-cooling pipeline, a partition piece is arranged in the first water storage cavity, the first water storage cavity is partitioned to form a third water storage cavity, a fourth water storage cavity and a fifth water storage cavity by the partition piece, a first interface and a second interface are arranged on the end face of the water-cooling row, the first interface is communicated with the fifth water storage cavity, the second interface is communicated with the fourth water storage cavity, and the first interface is communicated with the second interface through an externally-hung component.

2. A water cooled bar having an external interface as claimed in claim 1, wherein: the water cooling pipelines comprise a plurality of first water cooling pipelines and a plurality of second water cooling pipelines, one end of the third water storage cavity is communicated with one end of the second water storage cavity through the first water cooling pipelines, and the other end of the second water storage cavity is communicated with the fourth water storage cavity through the second water cooling pipelines.

3. A water cooled bar having an external interface as claimed in claim 1, wherein: one end face of the water cooling row is fixedly provided with a mounting block, the first interface and the second interface are both arranged on the mounting block, and the mounting block is detachably connected with the plug-in assembly.

4. A water cooled bar having an external interface as claimed in claim 3, wherein: and sealing gaskets are arranged at one ends of the first interface and the second interface, which are close to the plug-in assembly.

5. A water cooled bar having an external interface as claimed in any one of claims 1 to 4, wherein: the externally hung component is one of a water pump, a refrigerating sheet and a connecting pipe.

6. A water cooled bar having an external interface as recited in claim 4, wherein: the plug-in assembly is a water pump, a sliding rail is arranged on the top surface of the mounting block, a sliding groove matched with the sliding rail is arranged on the bottom surface of the water pump, a water inlet and a water outlet are formed in the water pump, a first interface corresponds to the water inlet, and a second interface corresponds to the water outlet.

7. A water cooled bar having an external interface as recited in claim 6, wherein: one end of the sliding groove is provided with a limiting end part which limits the sliding rail to slide relative to the sliding groove, a fastening hole is formed through the end face of the mounting block and the bottom face of the water pump, the fastening hole is formed in one side, opposite to the limiting end part, of the fastening hole, and a screw is arranged through the fastening hole so that the water pump is fixed on the mounting block.